Register      Login
The Rangeland Journal The Rangeland Journal Society
Journal of the Australian Rangeland Society
RESEARCH ARTICLE

Shrubs alter alpha and beta diversity of soil fauna in a semiarid grassland

Haining Gao A , Caixia Li A , Yang Jiao A , Yong Zhang A and Qi Feng B *
+ Author Affiliations
- Author Affiliations

A College of Life Science and Engineering, Hexi University, Zhangye 734000, China.

B Key Laboratory of Ecohydrology of Inland River Basin, Northwest Institute of Eco-Environment and Resources, Chinese Academy of Sciences, Lanzhou 730000, China.

* Correspondence to: qifeng@lzb.ac.cn

The Rangeland Journal 44(4) 213-220 https://doi.org/10.1071/RJ22054
Submitted: 23 September 2022  Accepted: 26 November 2022   Published: 10 January 2023

© 2022 The Author(s) (or their employer(s)). Published by CSIRO Publishing on behalf of the Australian Rangeland Society.

Abstract

Shrubs are widely distributed in semi-arid and arid ecosystems. Understanding shrub effects on alpha and beta diversity of soil fauna in arid and semiarid ecosystems could lead to promotion of biodiversity conservation and sustainable management. Yet the extent to which shrubs can influence beta diversity of soil fauna and different body size in arid and semiarid ecosystems is unknown. An investigation of soil fauna, macrofauna, and mesofauna beneath shrub canopy and in open spaces was conducted in the Donddashan Nature Reserve (a semiarid grassland ecosystem in China). Shrubs significantly increased the alpha diversity (richness and Shannon index), but significantly decreased the beta diversity and the nestedness component. Moreover, shrub effects differed among soil fauna of different body size. Shrubs significantly increased the abundance and Shannon index of mesofauna, whereas there were no significant effects on macrofauna between shrubs and open spaces. Shrubs significantly decreased the beta diversity of mesofauna, but significantly increased beta diversity and the turnover component of macrofauna. Piecewise structural equation modelling (SEM) showed that shrubs had an indirect effect on soil fauna diversity through mesofauna diversity. Results highlighted the crucial role that shrubs have in maintaining alpha diversity of soil fauna in arid ecosystem, and also demonstrated the divergent shrub effects on beta diversity of soil fauna, mesofauna, and macrofauna. This suggests a need to examine different taxonomic groups to gain a better understanding of ecological consequences of shrubs.

Keywords: beta diversity, biodiversity, conservation, macrofauna, mesofauna, semiarid ecosystem, shrub effect, soil fauna.


References

Al Hayek, P, Maalouf, J-P, Baumel, A, Bou Dagher-Kharrat, M, Médail, F, Touzard, B, and Michalet, R (2015). Differential effects of contrasting phenotypes of a foundation legume shrub drive plant–plant interactions in a Mediterranean mountain. Journal of Vegetation Science 26, 373–384.
Differential effects of contrasting phenotypes of a foundation legume shrub drive plant–plant interactions in a Mediterranean mountain.Crossref | GoogleScholarGoogle Scholar |

Baiser, B, and Lockwood, JL (2011). The relationship between functional and taxonomic homogenization: functional and taxonomic homogenization. Global Ecology and Biogeography 20, 134–144.
The relationship between functional and taxonomic homogenization: functional and taxonomic homogenization.Crossref | GoogleScholarGoogle Scholar |

Barnes, AD, Allen, K, Kreft, H, Corre, MD, Jochum, M, Veldkamp, E, Clough, Y, Daniel, R, Darras, K, Denmead, LH, Farikhah Haneda, N, Hertel, D, Knohl, A, Kotowska, MM, Kurniawan, S, Meijide, A, Rembold, K, Edho Prabowo, W, Schneider, D, Tscharntke, T, and Brose, U (2017). Direct and cascading impacts of tropical land-use change on multi-trophic biodiversity. Nature Ecology & Evolution 1, 1511–1519.
Direct and cascading impacts of tropical land-use change on multi-trophic biodiversity.Crossref | GoogleScholarGoogle Scholar |

Baselga, A, Gómez-Rodríguez, C, and Lobo, JM (2012). Historical Legacies in World Amphibian Diversity Revealed by the Turnover and Nestedness Components of Beta Diversity. PLoS ONE 7, e32341.
Historical Legacies in World Amphibian Diversity Revealed by the Turnover and Nestedness Components of Beta Diversity.Crossref | GoogleScholarGoogle Scholar |

Cardinale, BJ, Duffy, JE, Gonzalez, A, Hooper, DU, Perrings, C, Venail, P, Narwani, A, Mace, GM, Tilman, D, A.Wardle, D, Kinzig, AP, Daily, GC, Loreau, M, Grace, JB, Larigauderie, A, Srivastava, DS, and Naeem, S (2012). Biodiversity loss and its impact on humanity. Nature 489, 326–326.
Biodiversity loss and its impact on humanity.Crossref | GoogleScholarGoogle Scholar |

Chase, JM (2010). Stochastic Community Assembly Causes Higher Biodiversity in More Productive Environments. Science 328, 1388–1391.
Stochastic Community Assembly Causes Higher Biodiversity in More Productive Environments.Crossref | GoogleScholarGoogle Scholar |

Costa, A, Villa, S, Alonso, P, García-Rodríguez, JA, Martín, FJ, Martínez-Ruiz, C, and Fernández-Santos, B (2017). Can native shrubs facilitate the early establishment of contrasted co-occurring oaks in Mediterranean grazed areas? Journal of Vegetation Science 28, 1047–1056.
Can native shrubs facilitate the early establishment of contrasted co-occurring oaks in Mediterranean grazed areas?Crossref | GoogleScholarGoogle Scholar |

Fitoussi, N, Pen-Mouratov, S, and Steinberger, Y (2016). Soil free-living nematodes as bio-indicators for assaying the invasive effect of the alien plant Heterotheca subaxillaris in a coastal dune ecosystem. Applied Soil Ecology 102, 1–9.
Soil free-living nematodes as bio-indicators for assaying the invasive effect of the alien plant Heterotheca subaxillaris in a coastal dune ecosystem.Crossref | GoogleScholarGoogle Scholar |

Kardol, P, Reynolds, WN, Norby, RJ, and Classen, AT (2011). Climate change effects on soil microarthropod abundance and community structure. Applied Soil Ecology 47, 37–44.
Climate change effects on soil microarthropod abundance and community structure.Crossref | GoogleScholarGoogle Scholar |

Lefcheck, JS (2016). piecewiseSEM: Piecewise structural equation modelling in r for ecology, evolution, and systematics. Methods in Ecology and Evolution 7, 573–579.
piecewiseSEM: Piecewise structural equation modelling in r for ecology, evolution, and systematics.Crossref | GoogleScholarGoogle Scholar |

Legendre, P, and De Cáceres, M (2013). Beta diversity as the variance of community data: dissimilarity coefficients and partitioning. Ecology Letters 16, 951–963.
Beta diversity as the variance of community data: dissimilarity coefficients and partitioning.Crossref | GoogleScholarGoogle Scholar |

Legendre, P, Mi, X, Ren, H, Ma, K, Yu, M, Sun, I-F, and He, F (2009). Partitioning beta diversity in a subtropical broad‐leaved forest of China. Ecology 90, 663–674.
Partitioning beta diversity in a subtropical broad‐leaved forest of China.Crossref | GoogleScholarGoogle Scholar |

Liu, R, Zhu, F, Song, N, Yang, X, and Chai, Y (2013). Seasonal distribution and diversity of ground arthropods in microhabitats following a shrub plantation age sequence in desertified steppe. PLoS ONE 8, e77962.
Seasonal distribution and diversity of ground arthropods in microhabitats following a shrub plantation age sequence in desertified steppe.Crossref | GoogleScholarGoogle Scholar |

Liu, R, Zhu, F, and Steinberger, Y (2015). Effectiveness of afforested shrub plantation on ground-active arthropod communities and trophic structure in desertified regions. CATENA 125, 1–9.
Effectiveness of afforested shrub plantation on ground-active arthropod communities and trophic structure in desertified regions.Crossref | GoogleScholarGoogle Scholar |

Liu, W, Liu, L, Yang, X, Deng, M, Wang, Z, Wang, P, Yang, S, Li, P, Peng, Z, Yang, L, and Jiang, L (2021). Long‐term nitrogen input alters plant and soil bacterial, but not fungal beta diversity in a semiarid grassland. Global Change Biology 27, 3939–3950.
Long‐term nitrogen input alters plant and soil bacterial, but not fungal beta diversity in a semiarid grassland.Crossref | GoogleScholarGoogle Scholar |

Losapio, G, Norton Hasday, E, Espadaler, X, Germann, C, Ortiz‐Sánchez, FJ, Pont, A, Sommaggio, D, and Schöb, C (2021). Facilitation and biodiversity jointly drive mutualistic networks. Journal of Ecology 109, 2029–2037.
Facilitation and biodiversity jointly drive mutualistic networks.Crossref | GoogleScholarGoogle Scholar |

Matthews, TJ, Rigal, F, Triantis, KA, and Whittaker, RJ (2019). A global model of island species–area relationships. Proceedings of the National Academy of Sciences 116, 12337–12342.
A global model of island species–area relationships.Crossref | GoogleScholarGoogle Scholar |

McDermott, MT, Doak, P, Handel, CM, Breed, GA, and Mulder, CPH (2021). Willow drives changes in arthropod communities of northwestern Alaska: ecological implications of shrub expansion. Ecosphere 12, e03514.
Willow drives changes in arthropod communities of northwestern Alaska: ecological implications of shrub expansion.Crossref | GoogleScholarGoogle Scholar |

Prather, RM, Castillioni, K, Welti, EAR, Kaspari, M, and Souza, L (2020). Abiotic factors and plant biomass, not plant diversity, strongly shape grassland arthropods under drought conditions. Ecology 101, e03033.
Abiotic factors and plant biomass, not plant diversity, strongly shape grassland arthropods under drought conditions.Crossref | GoogleScholarGoogle Scholar |

R Core Team (2019) R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria.

Schuldt, A, Ebeling, A, Kunz, M, Staab, M, Guimarães-Steinicke, C, Bachmann, D, Buchmann, N, Durka, W, Fichtner, A, Fornoff, F, Härdtle, W, Hertzog, LR, Klein, A-M, Roscher, C, Schaller, J, von Oheimb, G, Weigelt, A, Weisser, W, Wirth, C, Zhang, J, Bruelheide, H, and Eisenhauer, N (2019). Multiple plant diversity components drive consumer communities across ecosystems. Nature Communications 10, 1460.
Multiple plant diversity components drive consumer communities across ecosystems.Crossref | GoogleScholarGoogle Scholar |

Trentanovi, G, von der Lippe, M, Sitzia, T, Ziechmann, U, Kowarik, I, and Cierjacks, A (2013). Biotic homogenization at the community scale: disentangling the roles of urbanization and plant invasion. Diversity and Distributions 19, 738–748.
Biotic homogenization at the community scale: disentangling the roles of urbanization and plant invasion.Crossref | GoogleScholarGoogle Scholar |

Wang, X, Nielsen, UN, Yang, X, Zhang, L, Zhou, X, Du, G, Li, G, Chen, S, and Xiao, S (2018). Grazing induces direct and indirect shrub effects on soil nematode communities. Soil Biology and Biochemistry 121, 193–201.
Grazing induces direct and indirect shrub effects on soil nematode communities.Crossref | GoogleScholarGoogle Scholar |

Wu, P, and Wang, C (2019). Differences in spatiotemporal dynamics between soil macrofauna and mesofauna communities in forest ecosystems: the significance for soil fauna diversity monitoring. Geoderma 337, 266–272.
Differences in spatiotemporal dynamics between soil macrofauna and mesofauna communities in forest ecosystems: the significance for soil fauna diversity monitoring.Crossref | GoogleScholarGoogle Scholar |

Wickham H, Chang W, Henry L, Pedersen TL, Takahashi K, Wilke C, Woo K (2019) ggplot2: Create elegant data visualizations using the grammar of graphics. R Package version 3.1.1. https://cran.r-project.org/web/packages/ggplot2/index.html

Xiong, D, Wei, C, Wubs, ERJ, Veen, GF, Liang, W, Wang, X, Li, Q, Putten, WH, and Han, X (2020). Nonlinear responses of soil nematode community composition to increasing aridity. Global Ecology and Biogeography 29, 117–126.
Nonlinear responses of soil nematode community composition to increasing aridity.Crossref | GoogleScholarGoogle Scholar |

Xiong, D, Wei, C, Wang, X, Lü, X, Fang, S, Li, Y, Wang, X, Liang, W, Han, X, Bezemer, TM, and Li, Q (2021). Spatial patterns and ecological drivers of soil nematode β‐diversity in natural grasslands vary among vegetation types and trophic position. Journal of Animal Ecology 90, 1367–1378.
Spatial patterns and ecological drivers of soil nematode β‐diversity in natural grasslands vary among vegetation types and trophic position.Crossref | GoogleScholarGoogle Scholar |

Zellweger, F, Roth, T, Bugmann, H, and Bollmann, K (2017). Beta diversity of plants, birds and butterflies is closely associated with climate and habitat structure. Global Ecology and Biogeography 26, 898–906.
Beta diversity of plants, birds and butterflies is closely associated with climate and habitat structure.Crossref | GoogleScholarGoogle Scholar |

Zhang, A, Liu, R, and Huang, L (2020). Effects of shrub revegetation on ground-active arthropod diversity and trophic structure in the Tengger desert. European Journal of Soil Biology 101, 103246.
Effects of shrub revegetation on ground-active arthropod diversity and trophic structure in the Tengger desert.Crossref | GoogleScholarGoogle Scholar |

Zhang, A, Chang, H, Liu, R, and Sternberg, M (2022). Shrub facilitative effects on the plant litter arthropod community shifts with decreasing precipitation in desertified ecosystems in northwestern China. Journal of Arid Environments 200, 104724.
Shrub facilitative effects on the plant litter arthropod community shifts with decreasing precipitation in desertified ecosystems in northwestern China.Crossref | GoogleScholarGoogle Scholar |

Zhao, H-L, and Liu, R-T (2013). The ‘bug island’ effect of shrubs and its formation mechanism in Horqin Sand Land, Inner Mongolia. CATENA 105, 69–74.
The ‘bug island’ effect of shrubs and its formation mechanism in Horqin Sand Land, Inner Mongolia.Crossref | GoogleScholarGoogle Scholar |

Zhao, Y, Sanders, NJ, Liu, J, Jin, T, Zhou, H, Lu, R, Ding, P, and Si, X (2021). β diversity among ant communities on fragmented habitat islands: the roles of species trait, phylogeny and abundance. Ecography 44, 1568–1578.
β diversity among ant communities on fragmented habitat islands: the roles of species trait, phylogeny and abundance.Crossref | GoogleScholarGoogle Scholar |